EC:2.7.1.21 - FACTA Search

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Query: EC:2.7.1.21 (thymidine kinase)
7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The genes for SOD1 and SOD2 (superoxide dismutases 1 and 2), RB1 (retinoblastoma), TYMS (thymidylate synthase), and TK1 (thymidine kinase) were mapped by in situ hybridization using biotinylated probes to rabbit chromosomes 6, 12, 8, 9, and 19, respectively. This confirms their proposed homoeologies with human chromosomes 21, 6, 13, 18, and 17, respectively, and provides additional information on the modification of these chromosomes during evolution.
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PMID:New gene assignments to rabbit chromosomes; implications for chromosome evolution. 139 22

A 30-base pair element within the c-fos promoter, termed the RCE (retinoblastoma control element), has previously been shown to be the target of transcriptional regulation by the product of the retinoblastoma (Rb) gene. We have identified three nuclear proteins [retinoblastoma control proteins (RCPs)] that complex with this promoter element in vitro. The Rb gene does not appear to encode the RCPs as the expression of Rb in vivo does not correlate with RCE-RCP complex formation in vitro. A single binding site for the RCPs within the c-fos RCE was identified, and the nucleotides required for protein-DNA complex formation were defined. Similar sequences are found in the promoters of two additional genes that are regulated by Rb (c-myc and TGF-beta 1), and binding assays demonstrate that the RCPs also interact with these elements. Linkage of the c-fos RCE to the herpes simplex virus thymidine kinase promoter led to a 4-fold stimulation of expression in transient transfection assays. Mutations within the RCP binding site that abrogate stable interaction of the RCPs with the RCE in vitro block RCE transcriptional activity in vivo. Our results suggest a role for the RCPs in RCE-dependent transcription and the regulation of transcription by the Rb protein.
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PMID:A common set of nuclear factors bind to promoter elements regulated by the retinoblastoma protein. 141 10

Transcription of the murine thymidine kinase gene, which is coregulated with the G1/S phase transition, is activated by changing the binding of protein complexes Yi1 and Yi2 to three upstream DNA motifs. Yi1 is replaced by Yi2 shortly before S phase. Yi1 contains a protein of 110 kDa that binds to the DNA motif sites and may be an underphosphorylated murine retinoblastoma protein, shown by its molecular mass, timing of its activity, and antibody recognition. An H1 kinase related to cdc2 cofractionates with both complexes. We propose that this kinase phosphorylates the murine retinoblastoma protein, releasing transcriptional inhibitions by Yi1 and permitting cell cycle progression. These results provide a cycle-related molecular target for such complexes. They are based on investigations of cycle control in uninfected cells. The Yi complexes are similar but not identical to complexes that include a cellular protein, E2F, that was originally found to bind to adenovirus DNA.
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PMID:Thymidine kinase transcription is regulated at G1/S phase by a complex that contains retinoblastoma-like protein and a cdc2 kinase. 156 17

In addition to retinoblastoma and osteosarcoma, mutation of both alleles of the RB1 gene occurs frequently in several other types of tumors. In order to evaluate the role of RB1 in cancer, the wild type RB1 gene was introduced into the RB1-deleted breast cancer cell line MDA-468-S4 and retinoblastoma cell lines WERI-Rb1 and Y-79. The RB1 complementary DNA was under control of the inducible murine metallothionein promoter in MDA-468-S4 and the thymidine kinase promoter in the retinoblastoma lines. The protein, p110RB1, produced from the exogenously introduced gene appeared normal by immunoprecipitation, Western blot analysis, and nuclear localization and also showed normal cell cycle-dependent phosphorylation and an ability to bind to E1a protein. No changes in growth rate or morphology were observed in either of the reconstituted cell types. Expression of p110RB1 in MDA-468-S4 did not affect anchorage-independent growth when measured by colony formation in soft agar. Although the ability of WERI-Rb1 cells expressing p110RB1 to form colonies in methylcellulose was reduced, the reconstituted retinoblastoma cell lines formed intraocular tumors in immunodeficient mice with the same efficiency as the RB1-negative parent cell lines and the tumors produced by the RB1-reconstituted cells continued to express p110RB1. These experimental results suggest that the malignant phenotype is little affected by the replacement of p110RB1 and that RB1 is a relatively weak tumor suppressor gene.
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PMID:Failure of RB1 to reverse the malignant phenotype of human tumor cell lines. 173 54

Proliferating cells characteristically undergo programmed (i.e. apoptotic) death if their progression through the cell cycle is sufficiently perturbed. To determine whether androgen ablation-induced programmed death of prostatic glandular cells involves apoptosis triggered by recruitment of nonproliferating cells into a perturbed cell cycle, rat ventral prostates were assessed temporally after castration for several stereotypical molecular stigmata of entry into the proliferative cell cycle. Northern blot analysis was used to assess levels of transcripts from genes characteristically activated 1) during the transition from quiescence (G(0)) into G1 of the proliferative cell cycle (cyclin-D1 and cyclin-C), 2) during the transition from G1 to S (cyclin-E, cdk2, thymidine kinase, and H4-histone), and 3) during progression through S (cyclin-A). Although levels of each of these transcripts increased as expected in prostatic glandular epithelial cells stimulated to proliferate by the administration of exogenous androgen to previously castrated rats, levels of the same transcripts decreased in prostatic glandular cells induced to undergo apoptosis after androgen withdrawal. Northern and Western blot analyses also demonstrated that there was no increase in prostatic p53 messenger RNA or protein content per cell after androgen ablation. Likewise, after castration, there was no enhanced prostatic expression of the WAF1/CIP1 gene, a gene whose expression is known to be induced in both a p53-dependent and -independent manner during recruitment from G0 into G1. In addition, androgen ablation-induced apoptosis of prostatic glandular cells was not accompanied by retinoblastoma protein phosphorylation, which is characteristic of progression into late G1. Nuclear run-on assays demonstrated that there was no increase in the prostatic rate of transcription of the c-myc and c-fos genes after castration. These results demonstrate that prostatic glandular cells undergo programmed death in G(0) without recruitment into the G1 phase of a defective cell cycle, and that an increase in p53 protein or its function is not involved in this death process.
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PMID:Androgen ablation-induced programmed death of prostatic glandular cells does not involve recruitment into a defective cell cycle or p53 induction. 772 Jun 36

Our studies provide evidence for the presence of cyclin D1 in an early G1 cycle-specific DNA binding complex Yi1. Previously we identified several complexes including Yi and E2F that at different times during G0 to S transition bind to three distinct DNA sequences (MT1, MT2, MT3) located in the mouse thymidine kinase upstream promoter. These various complexes contain DNA binding proteins (Sp1, E2F, p110, p60), cyclins A and E, cyclin-dependent kinase 2 (cdk2), and retinoblastoma-related proteins (pRB, p107). Here we report that Yi1 is different from the E2F complexes. Yi1 contains cyclin D1/cdk2 kinase as shown by using specific antibodies to cyclins, cdks and the Yi1 DNA-binding protein in gel retardation, western blotting, and immunoprecipitation assays. Yi1 binding is specific to a consensus sequence different from that of E2F.
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PMID:Cyclin D1/cdk2 kinase is present in a G1 phase-specific protein complex Yi1 that binds to the mouse thymidine kinase gene promoter. 781 Dec 75

Previously constructed Swiss mouse 3T3 fibroblasts producing polyomavirus large T antigen after addition of dexamethasone were used to study the transcriptional activation by the viral protein of five genes coding for enzymes involved in DNA synthesis and precursor production, namely, dihydrofolate reductase, thymidine kinase, thymidylate synthase, DNA polymerase alpha, and proliferating-cell nuclear antigen. It was found that all these genes, whose expression is stimulated at the G1/S boundary of the cell cycle after growth stimulation by serum addition, are coordinately trans activated when T antigen is induced in cells previously growth arrested by serum withdrawal. Cell lines carrying the information for a mutant form of large T antigen, in which a glutamic acid residue in the binding site for the retinoblastoma protein was changed into aspartic acid, were constructed to test the involvement of an interaction of T antigen with the retinoblastoma protein in this reaction. It was found that the mutated T protein is incapable of stimulating transcription of any one of the genes. The promoter of three of the genes (dihydrofolate reductase, thymidine kinase, and DNA polymerase alpha) unequivocally carries binding sites for transcription factor E2F, suggesting that complexes forming with this growth- and cell cycle-regulating transcription factor are the targets for T antigen. Although there is so far no evidence that thymidylate synthase and proliferating cell nuclear antigen are regulated via E2F, our data indicate that the retinoblastoma protein still is involved in the control of these genes. mRNA for E2F itself increases in amount at the G1/S border in serum-stimulated cells but not during polyomavirus T antigen-induced transcriptional activation of DNA synthesis enzymes in arrested cells.
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PMID:Coordinated trans activation of DNA synthesis- and precursor-producing enzymes by polyomavirus large T antigen through interaction with the retinoblastoma protein. 790 59

E2F has been implicated in growth control because of its association with the retinoblastoma protein and the presence of E2F binding sites in the promoters of several growth-regulated genes. Proteins that bind to an E2F site have been cloned from human and mouse cells. However, these two proteins (human E2F1 and mouse DP-1) are quite different in sequence. We have now cloned a mouse cDNA encoding a protein 86% identical to the human E2F1 protein. The mouse E2F1 cDNA encodes a 430-amino-acid protein with a predicted molecular weight of 46,322 and detects mRNAs of 2.7 and 2.2 kb. Using primers complementary to sequences in the mouse E2F1 3' untranslated region, we mapped the mouse E2F1 gene to chromosome 2, near the Agouti and c-src loci. To understand the role of the different E2F family members in the growth of mouse NIH 3T3 cells, we examined the levels of E2F1 and DP-1 mRNAs in different stages of the cell cycle. Since the levels of E2F1 but not DP-1 mRNA correlated with changes in transcription from the dhfr promoter, we examined whether E2F1 could activate various growth-regulated promoters. We found that E2F1 could activate some (dhfr, thymidine kinase, and DNA polymerase alpha) but not all (thymidylate synthase, cad, and c-myc) of these promoters. On the basis of changes in levels of E2F1 and its ability to transactivate growth-regulated promoters, we propose that E2F1 may mediate growth factor-initiated signal transduction.
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PMID:Cloning, chromosomal location, and characterization of mouse E2F1. 811 19

By performing DNase I footprint analysis, we had identified three distinct protein binding sequences (MT1, MT2, and MT3) located on the mouse thymidine kinase (TK) upstream promoter (Dou, Q.-P., Fridovich-Keil, J. L., and Pardee, A.B. (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 1157-1161). Here we report that MT2 includes an E2F-like binding site (GTTCGCGGGCAAA), as shown by the following evidence. (i) MT2 bound specifically to an affinity-purified fusion human E2F protein. (ii) Both MT2 and an authentic E2F site (TTTCGCGCGCTTT) bound specifically to similar or identical nuclear protein complexes. (iii) Formation of both these DNA-protein complexes were cell cycle-dependent: a G0/G1 phase-specific complex (E2F.G0/G1) was replaced by an S phase-specific complex(es) (E2F.S), whereas "free" E2F increased after the G1/S transition. (iv) Pulse inhibition of protein synthesis with cycloheximide interchanged these complexes with similar kinetics. (v) When MT2-shifted E2F.G0/G1, E2F.S, and free E2F were eluted and analyzed by Western blot assay using a specific antiserum to human E2F-1, two forms of murine E2F (62 and 66 kDa) were observed from all three complexes. The compositions of these MT2-bound complexes were also investigated. Studies using specific antibodies revealed that p107, a retinoblastoma-like protein, was present in both E2F-G0/G1 and E2F.S, whereas cyclin E.cyclin A.cdk2 were only present in E2F.S complex(es). These data suggest that removal of the p107-containing E2F.G0/G1 complex, a candidate repressor, from the MT2 site in late G1 may be essential for S phase-dependent transcription of the mouse TK gene.
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PMID:G1/S-regulated E2F-containing protein complexes bind to the mouse thymidine kinase gene promoter. 828 95

The promoter of the murine thymidine kinase gene contains a binding site for transcription factor E2F. Using cell lines (3T3-LT) conditionally expressing polyomavirus large T antigen from a hormone-responsive promoter and reporter gene constructs carrying the thymidine kinase promoter with intact or mutated E2F sites, we show that this E2F site is the target for trans activation by the viral protein. Transcription of the growth-regulated endogenous thymidine kinase gene can be activated in serum-starved, quiescent 3T3-LT cells by induction of T antigen. Activation of transcription from the thymidine kinase promoter requires an intact binding site for the retinoblastoma protein in the T antigen. The same promoter region was furthermore shown to play a major role in growth regulation of the gene. As several other DNA synthesis enzymes also carry E2F binding sites in their promoters, our observations suggest a common mechanism of growth regulation of these genes and that they all might be targets for trans activation by DNA tumor virus proteins.
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PMID:A binding site for transcription factor E2F is a target for trans activation of murine thymidine kinase by polyomavirus large T antigen and plays an important role in growth regulation of the gene. 844 10

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